An image sensor is disclosed. The image sensor includes a plurality of pixels arranged in a matrix which detects a pixel signal of each pixel based on a voltage difference between a reset voltage which is a reference voltage of each pixel and a signal voltage generated by a photoelectric conversion at each pixel, and includes a plurality of read lines located for each pixel column, wherein the reset voltage and the signal voltage are read from the pixel of the corresponding pixel column; and a reset current supply section provided for each read line, wherein at the same time a first reset current is supplied from a pixel to the read line when reading the reset voltage from the pixel, the section supplies a second reset current to the read line such that a sum of the first reset current and the second reset current is constant.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An image sensor comprising a plurality of pixels arranged in a matrix which detects a pixel signal of each pixel based on a voltage difference between a reset voltage which is a reference voltage of each pixel and a signal voltage generated by a photoelectric conversion at each pixel, the image sensor comprising: a plurality of read lines located for each pixel column, wherein the reset voltage and the signal voltage are read from the pixel of the corresponding pixel column; and a reset current supply section provided for each read line, wherein at the same time a first reset current is supplied from a pixel to the read line when reading the reset voltage from the pixel, the section supplies a second reset current to the read line such that a sum of the first reset current and the second reset current is constant.
2. An image sensor according to claim 1 , wherein: the pixel comprises a first read transistor for supplying the first reset current to the read line by an application of the reset voltage to a gate in a time period for reading the reset voltage, and for supplying a pixel current corresponding to the signal voltage to the read line by an application of the signal voltage to a gate in a time period for reading the signal voltage; and the reset current supply section comprises a second read transistor for supplying the second reset current to the read line by an application of the reset voltage to a gate in a time period for reading the reset voltage.
3. An image sensor according to claim 2 , wherein a gate length of a second read transistor constituting the reset current supply section is longer than a gate length of a first read transistor constituting the pixel.
4. An image sensor according to claim 1 , wherein the reset current supply section comprises: a reset current supply circuit comprising a plurality of transistors in a serial connection which are connected between a source voltage and the read line, wherein at least one of the plurality of transistors in the serial connection is controlled to be in a conducting state for a time period for reading the reset voltage; and a constant-current source connected between the read line and a ground voltage.
5. An image sensor according to claim 4 , wherein: the reset current supply circuit comprises two transistors in a serial connection connected between the source voltage and the read line; a source voltage is supplied to a gate of a transistor at the source voltage side of the two transistors in a serial connection; and a control signal is supplied to a gate of a transistor at the read line side of the two transistors in a serial connection.
6. An image sensor according to claim 4 , wherein: the reset current supply circuit comprises two transistors in a serial connection connected between the source voltage and the read line; and a control signal is supplied to gates of the two transistors in a serial connection.
7. An image sensor according to claim 4 , wherein: the reset current supply circuit comprises two transistors in a serial connection connected between the source voltage and the read line; a reset voltage is supplied to a gate of a transistor at the read line side of the two transistors in the serial connection; and a control signal is supplied to a gate of a transistor at the source voltage side of the two transistors in the serial connection.
8. An image sensor according to claim 4 , wherein: the reset current supply circuit comprises a single transistor connected between the source voltage and the read line; a control signal is supplied to a gate of the single transistor.
9. An image sensor according to claim 4 , wherein the pixel comprises: a photo diode for performing a photoelectric conversion; a selecting transistor for selecting the pixel; a read transistor connected between the selecting transistor and the reset voltage, the read transistor for reading a level of a charge generated by the photoelectric conversion at the photo diode; a reset transistor for controlling the read transistor such that the read transistor outputs the reset voltage; and a transmission transistor for transmitting a charge level generated by the photoelectric conversion at the photo diode to the read transistor, wherein in the selected pixel, after the reset voltage is read, a signal voltage generated by the photoelectric conversion is read.
10. An image sensor according to claim 9 , wherein the reset current supply current is a dummy pixel located in a shaded area, wherein the dummy pixel comprises: a photo diode for performing a photoelectric conversion; a selecting transistor for selecting the dummy pixel in a period for reading the reset voltage; a read transistor connected between the selecting transistor and the source voltage, the read transistor for reading a level of a charge generated at the dummy pixel; a reset transistor for always supplying the reset voltage to the gate of the read transistor; and a transmission transistor connected between the photo diode and the read transistor, wherein a gate voltage is fixed at an off voltage of the transistor.
11. An image sensor according to claim 9 , wherein the reset current supply current is a dummy pixel located in a shaded area, wherein the dummy pixel comprises: a selecting transistor for selecting the dummy pixel in a period for reading the reset voltage; a read transistor connected between the selecting transistor and the source voltage, the read transistor for reading a level of a charge generated at the dummy pixel; and a reset transistor for always supplying the reset voltage to the gate of the read transistor.
12. An image sensor according to claim 4 , wherein the pixel comprises: a photo diode for performing a photoelectric conversion; a selecting transistor for selecting the pixel; a read transistor connected between the selecting transistor and the source voltage, the read transistor for reading a level of a charge generated by the photoelectric conversion at the photo diode; and a reset transistor for controlling the read transistor such that the read transistor outputs the reset voltage, wherein in the selected pixel, after a signal voltage generated by the photoelectric conversion is read, the reset voltage is read.
13. An image sensor according to claim 12 , wherein the reset current supply current is a dummy pixel located in a shaded area, wherein the dummy pixel comprises: a photo diode for performing a photoelectric conversion; a selecting transistor for selecting the dummy pixel in a period for reading the reset voltage; a read transistor connected between the selecting transistor and the source voltage, the read transistor for reading a level of a charge generated at the dummy pixel; and a reset transistor for always supplying the reset voltage to the gate of the read transistor.
14. An image sensor according to claim 12 , wherein the reset current supply current is a dummy pixel located in a shaded area, wherein the dummy pixel comprises: a selecting transistor for selecting the dummy pixel in a period for reading the reset voltage; a read transistor connected between the selecting transistor and the source voltage, the read transistor for reading a level of a charge generated at the dummy pixel; and a reset transistor for always supplying the reset voltage to the gate of the read transistor.
15. An electronic information device using the image sensor according to claim 1 in an image capturing section.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
May 14, 2008
July 12, 2011
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